A simple pendulum of mass (m) and length (I) stands in equilibrium in vertical position. The maximum horizontal velocity that velocity should be given to the bob at the bottom so that it completes one revolution is (a) Vīg (c) V31 g (b) V21 g (d) 51g
A simple pendulum of mass (m) and length (I) stands in equilibrium in vertical position. The maximum horizontal velocity that velocity should be given to the bob at the bottom so that it completes one revolution is (a) Vīg (c) V31 g (b) V21 g (d) 51g
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![A simple pendulum of mass (m) and
length (1) stands in equilibrium in vertical
position. The maximum horizontal velocity
that velocity should be given to the bob at the
bottom so that it completes one revolution is
(a) Vīg
(c) V31 g
(b) V21 g
(d) V5 1g](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F5cc7e727-e79e-4c88-a78f-8e3e6f65b90e%2F16b55e67-5fdd-4dac-88ab-97612fd88574%2Fiiz0n96_processed.jpeg&w=3840&q=75)
Transcribed Image Text:A simple pendulum of mass (m) and
length (1) stands in equilibrium in vertical
position. The maximum horizontal velocity
that velocity should be given to the bob at the
bottom so that it completes one revolution is
(a) Vīg
(c) V31 g
(b) V21 g
(d) V5 1g
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